CN217530430U - Material receiving structure of steel pipe polishing equipment - Google Patents

Abstract

The utility model relates to a steel pipe material collecting device technical field, more specifically relate to a steel pipe polishing equipment receive material structure, include: the top wall of the base is provided with a plurality of partition plate combinations which are sequentially arranged along the delivery direction of the steel pipe and are separated by a preset distance, the partition plate combinations are two partition plates which are arranged in parallel, and the partition plates and the top wall of the base form a guide groove; the lifting arms are arranged at the same side of the base, the end part of each partition plate combination is provided with the lifting arm, the lifting arms are arranged below the steel pipe, and when the lifting arms rotate in a plane perpendicular to the axial direction of the steel pipe, the lifting arms contact and lift the steel pipe; and a plurality of material collecting device, each material collecting device all is located one side that the base has the lift arm, lifts arm rotation angle back, and the steel pipe breaks away from the guiding groove and rolls to material collecting device along lifting the arm, the utility model discloses can realize reducing personnel direct contact, reduce intensity of labour, reduce the advantage of recruitment cost through the structural configuration who effectively utilizes its self.

Description

Material collecting structure of steel pipe polishing equipment

Technical Field

The application relates to a steel pipe material collecting device field, more specifically relates to a material structure is received to steel pipe polishing equipment.

Background

In traditional steel pipe course of working, carry out polishing treatment to the steel pipe through steel pipe polishing equipment, because steel pipe polishing equipment does not have supporting receipts material structure, is carrying out polishing treatment back to the steel pipe, and the staff need be manual to take out the steel pipe after the polishing from steel pipe polishing equipment's exit, will again steel pipe transport to the region of formulating, its not enough lies in: 1. dust is easily generated in the polishing process, and processing personnel are easily stained or inhale the dust when carrying the polished steel pipe, so that the polishing process is not beneficial to the health of people; 2. carry steel pipe intensity of labour is big, and in handling the steel pipe easily takes place to collide with each other or makes the processing personnel injured, wastes time and energy, causes the recruitment cost too high.

Therefore, the need of providing a material receiving structure of the steel tube polishing equipment, which reduces direct contact of personnel, labor intensity and labor cost exists.

Disclosure of Invention

The main aim at of this application provides a receipts material structure of steel pipe polishing equipment, wherein, the receipts material structure of steel pipe polishing equipment includes that a base, a plurality of lift arm and a plurality of material collecting device, receive the material structure and arrange the exit at polishing equipment, and the warp steel pipe after the polishing of steel pipe polishing equipment is followed the direction of seeing off of export transmits extremely receive the material structure, a plurality of group's baffle combination has on the roof of base, the baffle combination with the roof of base forms the guiding groove, through the guiding groove is placed certainly the steel pipe that comes is transported in polishing equipment exit comes, comes through lifting the arm the steel pipe is delivered to material collecting device is last, through material collecting device accomplishes the receipts to the steel pipe.

Another objective of this application provides a material structure is received to steel pipe polishing equipment, wherein, the baffle combination is two parallel arrangement and interval predetermined distance's baffle, two the baffle is close to the one end in polishing equipment exit is respectively to two the predetermined angle is buckled to the direction that the baffle deviates from each other, with the convenience the steel pipe transports from the conveyer belt to more smoothly to the guiding groove.

Another aim at of this application provides a steel pipe polishing equipment receives material structure, wherein, the base still includes a plurality of adjusting device, adjusting device is used for adjusting the width of guiding groove to the steel pipe of adaptation individual specification.

Another aim at of this application provides a steel pipe polishing equipment's receipts material structure, wherein, each material collecting device all has a guide portion and a portion of accomodating, the guide portion has the inclined plane, just the minimum intercommunication on inclined plane the portion of accomodating is convenient for the steel pipe certainly the guide portion rolls extremely the portion of accomodating.

Another aim at of this application provides a steel pipe polishing equipment receives material structure, wherein, steel pipe polishing equipment's receipts material structure simple structure, simple operation do not relate to complicated manufacturing process and expensive material, have higher economic nature, easily promote and use.

In order to achieve at least one of the above objects, the present application provides a material receiving structure of a steel tube polishing device, where the material receiving structure is disposed at an outlet of the steel tube polishing device, and a steel tube polished by the steel tube polishing device is transferred to the material receiving structure along a sending direction of the outlet, and the material receiving structure of the steel tube polishing device includes:

the top wall of the base is provided with a plurality of groups of partition plate combinations, the partition plate combinations are sequentially arranged along the delivery direction of the outlet, two adjacent partition plate combinations are spaced at a preset distance, each partition plate combination comprises two partition plates which are arranged in parallel and spaced at a preset distance, the two partition plates are arranged along the delivery direction of the outlet, and the two partition plates and the top wall of the base form a guide groove for placing the steel pipe; and

the lifting arms can rotate by a preset angle, each lifting arm is positioned on the same side of the base, the end part of each partition plate combination is provided with the lifting arm, when the lifting arms do not act, the lifting arms are arranged below the steel pipe, and when the lifting arms rotate by a preset angle in a plane perpendicular to the axial direction of the steel pipe, the lifting arms contact the steel pipe and lift the steel pipe; and

and each material receiving device is positioned on one side of the base with the lifting arm, when the lifting arm rotates for a preset angle and the steel pipe is separated from the guide groove, the lifting arm lifts the steel pipe to a height higher than that of one end of the material receiving device close to the base, and meanwhile, the lifting arm and one end of the material receiving device close to the base are arranged in a crossed manner in the axial direction of the steel pipe.

In one or more embodiments of the present application, one end of each of the two partition plates in the same partition plate assembly, which is close to the outlet of the steel pipe polishing apparatus, is bent by a predetermined angle in a direction in which the two partition plates depart from each other.

In one or more embodiments of the present application, a supporting rod is disposed on a side of the base where the lifting arms are disposed, the supporting rod and the partition assembly are spaced apart by a predetermined distance, the supporting rod is rotatably mounted on the base, each of the lifting arms is fixedly connected to the supporting rod, the material receiving structure further includes a lifting device, the lifting device is hinged to the base, and an end of the lifting arm away from the partition assembly is hinged to a driving shaft of the lifting device.

In one or more embodiments of the present application, the base further includes a plurality of adjusting devices, each of the adjusting devices includes a protruding block and a bolt, one end of the bolt is fixedly connected to the partition board, the protruding block is fixedly connected to the base, each of the protruding blocks has a fourth through hole, and one end of the bolt departing from the partition board assembly is movably disposed through the fourth through hole.

In one or more embodiments of this application, the base still includes a plurality of running roller, the running roller is located the tip of guiding groove, just the running roller is located the below of steel pipe and with the steel pipe contact.

In one or more embodiments of this application, the lateral wall of guiding groove is equipped with the rubber pad, the rubber pad with the baffle one-to-one, each rubber pad all with corresponding baffle fixed connection.

In one or more embodiments of the present application, the lifting arm is vertically arranged with the partition plate combination.

In one or more embodiments of the present application, each of the material receiving devices has a guiding portion and a receiving portion, one end of the guiding portion is fixedly connected to the receiving portion, and the other end of the guiding portion is close to the partition plate assembly.

In one or more embodiments of the present application, the guide portion has a slope, and a lowest point of the slope communicates with the receiving portion.

In one or more embodiments of the present application, an end of the lifting arm away from the lifting device is bent to a side close to the steel pipe by a predetermined angle.

In the embodiment of the application, the guide groove formed by combining the partition plates is used for receiving the steel pipe sent out from the outlet of the steel pipe polishing equipment, the steel pipe is lifted out of the guide groove by the lifting arm and is rolled to the material receiving device along the lifting arm, and the material receiving of the steel pipe is completed by the material receiving device; one end of each partition plate is bent, so that the steel pipe can enter the guide groove along the inclined surface of the bent part even if the steel pipe is not completely opposite to the guide groove; adjusting the width of the guide groove by an adjusting device; the friction between the roller and the surface of the steel pipe is reduced, so that the steel pipe is easier to be sent into the guide groove; reduce through the rubber pad steel pipe surface business turn over produce the risk of mar during the guiding groove.

Drawings

These and/or other aspects and advantages of the present application will become more apparent and more readily appreciated from the following detailed description of the embodiments of the present application, taken in conjunction with the accompanying drawings of which:

fig. 1 illustrates a schematic structural diagram of a material receiving structure of the steel pipe polishing device.

Fig. 2 illustrates an enlarged view at C of fig. 1.

Fig. 3 illustrates a schematic view of the structure of the connection block.

Fig. 4 illustrates a schematic structural view of the lifting arm.

Fig. 5 is a schematic view showing a state where the steel pipe is placed in the guide groove when the elevator is not operated.

FIG. 6 is a schematic diagram showing the movement of the steel tube after the lifting device is operated, the steel tube is taken away from the guide groove under the action of the lifting arm and moves to the material receiving device.

In the figure: the device comprises a base 10, a lifting arm 20, a material receiving device 30, a lifting device 40, a connecting block 50, a steel pipe 90, a clapboard combination 101, a supporting rod 102, an adjusting device 103, a roller 104, a rubber pad 105, a bearing frame 106, a clapboard 1011A, a guide groove 1011A, a 1031 lug, a 1032 bolt, a 1033 nut, a second through hole 201, a welding part 202, a boss 203, a through groove 501 and a first through hole 5011.

Detailed Description

The terms and words used in the following specification and claims are not limited to the literal meanings, but are used only by the inventors to enable a clear and consistent understanding of the application. Accordingly, it will be apparent to those skilled in the art that the following descriptions of the various embodiments of the present application are provided for illustration only and not for the purpose of limiting the application as defined by the appended claims and their equivalents.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

While ordinal numbers such as "first," "second," etc., will be used to describe various components, those components are not limited herein. The term is used only to distinguish one element from another. For example, a first component could be termed a second component, and, similarly, a second component could be termed a first component, without departing from the teachings of the present inventive concept. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The terminology used herein is for the purpose of describing various embodiments only and is not intended to be limiting. As used herein, the singular forms are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, numbers, steps, operations, components, elements, or combinations thereof, but do not preclude the presence or addition of one or more other features, numbers, steps, operations, components, elements, or groups thereof.

Summary of the application

In traditional steel pipe course of working, carry out polishing treatment to the steel pipe through steel pipe polishing equipment, because steel pipe polishing equipment does not have supporting receipts material structure, is carrying out polishing treatment back to the steel pipe, and the staff of working need manually take out the steel pipe after the polishing from steel pipe polishing equipment's exit, will again steel pipe transport to storage compartment, its not enough lies in: 1. dust is easily generated in the polishing process, and processing personnel are easily stained or inhale the dust when carrying the polished steel pipe, so that the polishing process is not beneficial to the health of people; 2. the labor intensity for carrying the steel pipe is high, and the steel pipe is easy to collide or hurt processing personnel in the carrying process; the cost of the labor is too high.

Therefore, the need of providing a material receiving structure of the steel tube polishing equipment, which reduces direct contact of personnel, labor intensity and labor cost exists.

Based on above-mentioned technical problem, this application provides a steel pipe polishing equipment's receipts material structure, wherein, steel pipe polishing equipment's receipts material structure simple structure does not relate to complicated manufacturing process and expensive material, has higher economic nature, and simultaneously, to the producer, the steel pipe polishing equipment's that this application provided receipts material structure is easily produced, and low cost more is favorable to controlling manufacturing cost, further is favorable to the product to promote and use.

A material receiving structure of the schematic steel pipe polishing equipment,

referring to fig. 1 to 6, according to the present invention, a material receiving structure of a steel tube polishing device is provided, wherein the material receiving structure of the steel tube polishing device is disposed at an outlet of the steel tube polishing device, and the steel tube 90 polished by the steel tube polishing device is disposed along a sending direction of the outlet and is transmitted to the material receiving structure.

As shown in fig. 1, the material receiving structure of the steel pipe polishing apparatus includes a base 10, a plurality of lifting arms 20 capable of rotating a predetermined angle, and a plurality of material receiving devices 30. The top wall of the base 10 is provided with a plurality of groups of partition plate combinations 101, the plurality of groups of partition plate combinations 101 are sequentially arranged along the sending direction of the outlet, two adjacent partition plate combinations 101 are spaced at a preset distance, each partition plate combination 101 comprises two partition plates 1011 which are arranged in parallel and spaced at a preset distance, and the two partition plates 1011 and the top wall of the base 10 form a guide groove 1011A for placing the steel pipe 90; each of the lifting arms 20 is located on the same side of the base 10, and the lifting arm 20 is disposed at an end of each of the diaphragm assemblies 101, preferably, the lifting arm 20 is disposed at both ends of each of the diaphragm assemblies 101, when the lifting arm 20 is not actuated, the lifting arm 20 is disposed below the steel pipe 90, and when the lifting arm 20 rotates by a predetermined angle in a plane perpendicular to the axial direction of the steel pipe 90, the lifting arm 20 contacts the steel pipe 90 and lifts the steel pipe 90; each material receiving device 30 is located on one side of the base 10 having the lifting arm 20, when the lifting arm 20 rotates by a predetermined angle and the steel pipe 90 is separated from the guide slot 1011A, the lifting arm 20 lifts the steel pipe 90 by a height greater than the height of one end of the material receiving device 30 close to the base 10, and meanwhile, in the axial direction of the steel pipe 90, the lifting arm 20 and one end of the material receiving device 30 close to the base 10 are arranged crosswise, so that the steel pipe 90 is separated from the guide slot 1011A and rolls to the material receiving device 30 along the lifting arm 20. It should be noted that, the lifting arm 20 is arranged perpendicular to the partition plate assembly 101, which has the following advantages: a lifting arm 20 occupies a small space; 2. when the lifting arm 20 lifts the steel pipe 90, the steel pipe 90 is not prone to being inclined; both of the partitions 1011 are perpendicular to the top wall of the base 10.

Specifically, as shown in fig. 1, each of the material receiving devices 30 has a guiding portion 301 and a receiving portion 302, one end of the guiding portion 301 is fixedly connected to the receiving portion 302, the fixing connection is not limited to welding, the other end of the guiding portion 301 is close to the partition plate assembly 101, and when the steel pipe 90 rolls to the material receiving device 30, the steel pipe 90 rolls from the guiding portion 301 to the receiving portion 302. Further, the guiding portion 301 has a slope, and the lowest point of the slope is communicated with the receiving portion 302, so that the steel pipe 90 can roll from the guiding portion 301 to the receiving portion 302 under the action of its own weight. The bottom wall of the receiving portion 302 is flush with or lower than the lowest point of the inclined plane, and in this embodiment, the bottom wall of the receiving portion 302 is flush with the lowest point of the inclined plane.

Further, as shown in fig. 2, one end of each of the two partition plates 1011 of the same partition plate assembly 101, which is close to the outlet of the steel pipe polishing apparatus, is bent by a predetermined angle in a direction in which the two partition plates 1011 are away from each other, so that the steel pipe 90 sent out from the outlet can enter the guide groove 1011A more smoothly. Even if the steel pipe 90 is not aligned with the guide groove 1011A on the horizontal line at first, the steel pipe 90 that is not aligned with the guide groove 1011A completely abuts against the inclined surface and then enters the guide groove 1011A along the inclined surface because the inlet end of the partition 1011 is bent outward to form the inclined surface.

Further, as shown in fig. 1, a support rod 102 is provided at one side of the base 10 having the lifting arm 20, and the support rod 102 is spaced from the partition plate assembly 1011 by a predetermined distance, the support rod 102 is rotatably mounted on the base 10, and each lifting arm is fixedly connected to the support rod, and the fixed connection manner is not limited to welding. The material receiving structure further comprises a lifting device 40, the lifting device 40 is hinged to the base 10, and one end of the lifting arm 20, which is far away from the partition plate assembly 101, is hinged to a driving shaft of the lifting device 40. The lifting device 40 is further embodied as a cylinder. .

Specifically, the supporting rod 102 is implemented as a round rod, and two bearing frames 106 (refer to fig. 1, 5, or 6) are disposed on the base 10 near the supporting rod 102, the two bearing frames 106 are fixedly connected to the base 10, the fixed connection is not limited to welding or screwing, a bearing is disposed in each bearing frame 106, and two ends of the supporting rod 102 are sleeved with corresponding bearings, so that the supporting rod 102 is rotatably mounted on the base 10. It should be noted that the height of the bearing bracket 106 does not interfere with the movement of the steel tube 90.

Specifically, as shown in fig. 3, the material collecting structure of the steel tube polishing apparatus includes a connecting block 50, the connecting block 50 is provided with a hinge shaft (not labeled in the drawings), the connecting block 50 has a through groove 501, one end of the lifting arm 20 close to the lifting device 40 is disposed in the through groove 501, both side walls of the through groove 501 have a first through hole 5011, the two first through holes 5011 are coaxial, correspondingly, as shown in fig. 4, one end of the lifting arm 20 close to the lifting device 40 has a second through hole 201, and when one end of the lifting arm 20 having the second through hole 201 is disposed in the through groove 501, the hinge shaft penetrates through the first through hole 5011 and the second through hole 201, so that the lifting arm 20 can rotate around the hinge shaft. Meanwhile, the connecting block 50 is fixedly connected with the push rod of the corresponding cylinder, and the fixed connection mode is not limited to bolt connection. It should be noted that the distance from the central axis of the hinge shaft to the bottom wall of the through slot 501 is greater than the distance from the end of the lifting arm (the end having the second through hole 201) to the central axis of the hinge shaft, so as to prevent the through slot 501 from being too shallow to interfere with the movement of the lifting arm 20, thereby realizing the hinge joint between the lifting arm 20 and the lifting device 40. How the lifting device 40 is hinged to the base 10 is not described in detail, which is similar to the above description.

Specifically, as shown in fig. 4, a welding portion 202 is disposed at a position of each lifting arm 20 close to the support rod, since the support rod 102 is a round rod, and the welding portion 202 is a semi-circular groove, which is more convenient for positioning before welding, the welding portion 202 is engaged with the support rod 102, and at the same time, each welding portion 202 is welded to the support rod 102, so as to fixedly connect each lifting arm 20 with the support rod 102.

It should be noted that when the push rod of the cylinder moves downward, the lifting arm 20 hinged to the cylinder moves along with the cylinder, and because the lifting arm 20 hinged to the cylinder is welded to the support rod 102, the support rod 102 rotates clockwise (looking from the outlet along the axial direction of the steel pipe) by a predetermined angle around the central axis of the bearing, and drives each lifting arm welded to the support rod 102 to rotate by a predetermined angle along with the support rod 102. As shown in fig. 5, when the lifting arm 20 is not operated, the lifting arm 20 is disposed below the steel pipe 90; when the lifting arm 20 rotates clockwise by a predetermined angle around the central axis of the support rod 102, as shown in fig. 6, the lifting arm 20 abuts against the steel pipe 90 disposed in the guide slot 1011A and lifts the steel pipe 90 to separate the steel pipe 90 from the guide slot 1011A, and after the steel pipe 90 is separated from the guide slot 1011A, the lifting arm 20 is inclined, so that the steel pipe 90 rolls downward along the steel pipe 90 under the action of gravity and rolls to the guide portion 301, and then rolls to the receiving portion 302 through the guide portion 301, thereby achieving the material receiving operation of the steel pipe 90.

In order to ensure that the lifting arm 20 can stably take the steel pipes 90 of various specifications away from the guide groove 1011A during the clockwise motion, as shown in fig. 4, one end of the lifting arm 20 away from the lifting device 40 is bent to a side close to the steel pipe 90 by a predetermined angle, and a boss 203 is formed. In the present embodiment, the bending angle is 90 °. It should be noted that, for the steel pipe 90 with a smaller pipe diameter, when the lifting arm 20 lifts the steel pipe 90 and makes the steel pipe 90 come out of the guide groove 1011A, the boss 203 does not necessarily abut against the steel pipe 90; however, in the process of separating the steel pipe 90 from the guide groove 1011A for the steel pipe 90 with a larger pipe diameter, since the length of the lifting arm 20 is fixed, the steel pipe 90 slides away from one end of the steel pipe 90 away from the lifting device 40, and at this time, since the lifting arm 20 has the boss 203, and the boss 203 abuts against the steel pipe 90, the phenomenon that the steel pipe 90 slides away from the lifting arm 20 without separating from the guide groove 1011A is avoided.

Further, the base 10 further includes a plurality of adjusting devices 103, one end of each adjusting device 103 is fixedly connected to the partition 1011, and the other end of each adjusting device 103 is movably connected to the base 10.

Specifically, as shown in fig. 2, each of the adjusting devices 103 includes a protrusion 1031 and a bolt 1032, and one end of the bolt 1032 is fixedly connected to the partition 1011, in this embodiment, the fixed connection is implemented as welding. The protrusions 1031 are located on two sides of the partition board assembly 101, and the protrusions are fixedly connected with the base, and the fixing connection manner is not limited to welding or screwing. Each lug 1031 has a fourth through hole (not labeled in the drawings), and an end of the bolt 1032 facing away from the partition board assembly 101 is movably disposed through the fourth through hole. Each bolt 1032 is further provided with two nuts 1033, the two nuts 1033 are in threaded connection with the bolt 1032, the two nuts 1033 abut against two sides of the projection 1031 respectively and determine the position of the partition plate 1011, and the position of the partition plate 1011 welded to the bolt 1032 can be adjusted by adjusting the positions of the two nuts 1033 and the bolt 1032 relative to the fourth through hole, so that the width of 1011A of the guide groove is adjusted to adapt to steel pipes 90 of different specifications. It should be noted that when the lifting device 40 is operated and the steel pipe 90 rolls on the lifting arm 20, the steel pipe 90 does not interfere with the movement of the adjusting device 103.

Further, as shown in fig. 2, the base 10 further includes a plurality of rollers 104, the rollers 104 are disposed at the end of the guiding groove 1011A, preferably at the end of the partition plate assembly 101 close to the outlet of the steel pipe polishing device, and the rollers 104 are disposed below the steel pipe 90 and contact the steel pipe 90, and the rollers 104 make the steel pipe 90 more easily fed into the guiding groove 1011A. It should be noted that the highest point of the roller 104 is higher than the bottom wall of the guiding groove 1011A or at least flush with the bottom wall of the guiding groove 1011A.

Further, as shown in fig. 2, the side wall of the guide slot 1011A is provided with rubber pads 105, the rubber pads 105 correspond to the partition plates 1011 one by one, and each rubber pad 105 is fixedly connected to the corresponding partition plate 1011, and the fixed connection manner is not limited to bolt connection. Due to the existence of the rubber pad 105, when the steel pipe 90 enters the guide groove 1011A and leaves the guide groove 1011A, the surface of the steel pipe 90 is protected, and the risk of scratches on the surface of the steel pipe 90 is reduced.

In conclusion, based on this application embodiment steel pipe polishing equipment's receipts material structure is elucidated, its for steel pipe polishing equipment's receipts material structure provides advantages such as reduction personnel direct contact, reduction intensity of labour, reduction recruitment cost.

It is worth mentioning that, in this application embodiment, the receipts of steel pipe polishing equipment is expected simple structure, does not relate to complicated manufacturing process and expensive material, has higher economic nature. Simultaneously, to the manufacture factory, the steel pipe polishing equipment's that this application provided receipts material structure is easily produced, and low cost, more is favorable to controlling manufacturing cost, further is favorable to the product to promote and use.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments, and any variations or modifications may be made without departing from the principles of the present invention.

Claims (10)

1. The utility model provides a steel pipe polishing equipment's receipts material structure which characterized in that: receive the material structure and arrange in the exit of steel pipe polishing equipment, and pass through steel pipe after the steel pipe polishing equipment polishing is followed the direction of sending out of export transmits to receive the material structure, receive the material structure and include:

the top wall of the base is provided with a plurality of groups of partition plate combinations, the partition plate combinations are sequentially arranged along the delivery direction of the outlet, two adjacent partition plate combinations are spaced at a preset distance, each partition plate combination comprises two partition plates which are arranged in parallel and spaced at a preset distance, the two partition plates are arranged along the delivery direction of the outlet, and the two partition plates and the top wall of the base form a guide groove for placing the steel pipe; and

the lifting arms can rotate by a preset angle, each lifting arm is positioned on the same side of the base, the end part of each partition plate combination is provided with the lifting arm, when the lifting arms do not act, the lifting arms are arranged below the steel pipe, and when the lifting arms rotate by a preset angle in a plane perpendicular to the axial direction of the steel pipe, the lifting arms contact the steel pipe and lift the steel pipe; and

each material receiving device is located on one side, provided with the lifting arm, of the base, when the lifting arm rotates for a preset angle and the steel pipe is separated from the guide groove, the lifting arm lifts the steel pipe to a height larger than that of one end, close to the base, of the material receiving device, and meanwhile, the lifting arm and one end, close to the base, of the material receiving device are arranged in a crossed mode in the axial direction of the steel pipe.

2. The material receiving structure of the steel pipe polishing device according to claim 1, which is characterized in that: and one ends of the two clapboards in the same clapboard combination, which are close to the outlet of the steel pipe polishing equipment, are respectively bent by a preset angle towards the direction in which the two clapboards deviate from each other.

3. The material receiving structure of the steel pipe polishing device according to claim 1, which is characterized in that: the material receiving structure comprises a base, a baffle plate assembly and a lifting device, wherein a supporting rod is arranged on one side, provided with the lifting arms, of the base, a preset distance is reserved between the supporting rod and the baffle plate assembly, the supporting rod is rotatably installed on the base, each lifting arm is fixedly connected with the supporting rod, the material receiving structure further comprises a lifting device, the lifting device is hinged with the base, and one end, away from the baffle plate assembly, of each lifting arm is hinged with a driving shaft of the lifting device.

4. The material receiving structure of the steel pipe polishing device according to claim 1, which is characterized in that: the base further comprises a plurality of adjusting devices, each adjusting device comprises a lug and a bolt, one end of each bolt is fixedly connected with the partition plate, each lug is fixedly connected with the base, a fourth through hole is formed in each lug, and one end, deviating from the partition plate assembly, of each bolt is movably arranged in the fourth through hole in a penetrating mode.

5. The material receiving structure of the steel pipe polishing device according to claim 1, which is characterized in that: the base still includes a plurality of running roller, the running roller is located the tip of guiding groove, just the running roller is located the below of steel pipe and with the steel pipe contact.

6. The material receiving structure of the steel pipe polishing device according to claim 1, which is characterized in that: the lateral wall of guiding groove is equipped with the rubber pad, the rubber pad with the baffle one-to-one, each the rubber pad all with corresponding baffle fixed connection.

7. The material receiving structure of the steel pipe polishing device according to claim 1, which is characterized in that: the lifting arm and the clapboard combination are vertically arranged.

8. The material receiving structure of the steel pipe polishing device according to claim 1, which is characterized in that: each material collecting device is provided with a guide part and a containing part, one end of the guide part is fixedly connected with the containing part, the other end of the guide part is close to the partition plate assembly, and when the steel pipe rolls to the material collecting device, the steel pipe rolls to the containing part from the guide part.

9. The material receiving structure of the steel pipe polishing device according to claim 8, wherein: the guide part is provided with a slope, and the lowest point of the slope is communicated with the accommodating part.

10. The material receiving structure of the steel pipe polishing device according to claim 3, wherein: and one end of the lifting arm departing from the lifting device is bent to one side close to the steel pipe by a preset angle.

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